The Q factor is describing how sharp the dropoff of the filter is relative to the pass band. Wikipedia has a decent writeup on Q factor. The more components you use to make the filter, and the lower the cutoff frequency, the higher the Q will be.
A band-pass filter blocks or attenuates frequencies outside of a certain range, while it accepts frequencies from within that range. The range of frequencies it will accept is determined by its Q-factor. A filter with a high Q-factor will have a narrow range of accepted frequencies, whereas a filter with a low Q-factor will have a wide range of accepted frequencies.
the bridge is preferably balanced by capacitor parallel attached resistance value. so, q factor of the inductor is given by w L / C at balance condition. q-value is low prefer
In tube making by pilgering, it is possible to reduce wall thickness as well as diameter of the tube. Q factor is defined as the ratio of wall thickness reduction to diameter reduction. The value of Q can be adjusted in the manufacture of tubes by changing the conicity of the mandrel. In the case of zirconium, the single crystal is anisotropic being of hexagonal close packed structure. Poly crystalline zirconium is not anisotropic, but develops a preferred oreintation after cold work. Deformation takes place by prismatic slip and by twinning. When the Q factor is maintained high, that is, when wall thickness reduction is much more than diameter reduction, the crystals take radial positions in the wall thickenss of the tube. When the Q factor is low, the crystals take tangential positions In nuclear applications of zirconium, in the event of hydriding, the hydride forms perpendicular to the c axis of the hcp crystal. A high Q factor leads to tangential hydride platelet formation, which is acceptable. High Q factors are achieved in pilgering. A low Q factor leads to radial hydride platelets in the thickness of the tube and hence has deleterious effects. Low Q factors occur in drawing process. Hence for nuclear applications, high Q factors through pilgering are used. Balakrishna Palanki Ph.D
Q is the general idea of component quality, mainly in AC circuits. It is equal to reactance divided by resistance. The Q factor of an entire circuit can also be computed the same way. In general, adding resistance decreases the circuit or component Q. The "Q" factor is a empirical number to imply the acuteness of a circuit to discriminate surrounding influences and act on the Q of the circuit. The higher the Q THE SHARPER THE RESPONSE.
Minimize circuit resistance.
A band-pass filter blocks or attenuates frequencies outside of a certain range, while it accepts frequencies from within that range. The range of frequencies it will accept is determined by its Q-factor. A filter with a high Q-factor will have a narrow range of accepted frequencies, whereas a filter with a low Q-factor will have a wide range of accepted frequencies.
It is related to damping in the circuit using a resistor. Q is inversely proportional to the resistor(R). So if the value of resistance is high, there is a greater damping and the value of Q will be low. if resistance is low, there is small damping and Q will be high. when Q is high(low damping) the graph of voltage across resistor against frequency will be sharp at resonance and the bandwidth will be small when Q is low(high damping) thee graph will be less sharp as the bandwidth will be large. Go do some research on the graphs and the formula of Q factor to understand it better.
the bridge is preferably balanced by capacitor parallel attached resistance value. so, q factor of the inductor is given by w L / C at balance condition. q-value is low prefer
impedance/resistance
The Q factor of a coil, sometimes called the unloaded Q factor, is the ratio of the energy stored in the coil to the energy dissipated in the resistance of the wire.
Stabity factor is not a circuit.It is a parameter,which decides the ability of Biasing circuits,to keep the Q-pt stable in the center of DCLoadLINE.It should be as low as possible
In a RLC series circuit the Q factor magnify the voltage to the circuit.
the higher the Q the narrower the bandpass or band-rejection. however high Q is not always desirable. for example in receiver IF stages too high a Q will filter out some of the needed modulation bandwidth, destroying signal information.
In tube making by pilgering, it is possible to reduce wall thickness as well as diameter of the tube. Q factor is defined as the ratio of wall thickness reduction to diameter reduction. The value of Q can be adjusted in the manufacture of tubes by changing the conicity of the mandrel. In the case of zirconium, the single crystal is anisotropic being of hexagonal close packed structure. Poly crystalline zirconium is not anisotropic, but develops a preferred oreintation after cold work. Deformation takes place by prismatic slip and by twinning. When the Q factor is maintained high, that is, when wall thickness reduction is much more than diameter reduction, the crystals take radial positions in the wall thickenss of the tube. When the Q factor is low, the crystals take tangential positions In nuclear applications of zirconium, in the event of hydriding, the hydride forms perpendicular to the c axis of the hcp crystal. A high Q factor leads to tangential hydride platelet formation, which is acceptable. High Q factors are achieved in pilgering. A low Q factor leads to radial hydride platelets in the thickness of the tube and hence has deleterious effects. Low Q factors occur in drawing process. Hence for nuclear applications, high Q factors through pilgering are used. Balakrishna Palanki Ph.D
yes ,Q factor is ratio of energy stored to energy dissipated
12q 12,q 6,2,q 3,2,2,q
Q is the general idea of component quality, mainly in AC circuits. It is equal to reactance divided by resistance. The Q factor of an entire circuit can also be computed the same way. In general, adding resistance decreases the circuit or component Q. The "Q" factor is a empirical number to imply the acuteness of a circuit to discriminate surrounding influences and act on the Q of the circuit. The higher the Q THE SHARPER THE RESPONSE.